Posted
by
msmash
on Friday February 16, 2018 @09:00AM
from the tussle-continues dept.

It's been two years since the FBI and Apple got into a giant fight over encryption following the San Bernardino shooting, when the government had the shooter's iPhone, but not the password needed to unlock it, so it asked Apple to create a way inside. What's most surprising is how little has changed since then. From a report: The encryption debate remains unsettled, with tech companies largely opposed and some law enforcement agencies still making the case to have a backdoor. The case for strong encryption: Those partial to the tech companies' arguments will note that cyberattacks and hacking incidents have become even more common, with encryption serving as a valuable way to protect individuals' personal information. The case for backdoors: Criminals are doing bad stuff and when devices are strongly encrypted they can do it in what amounts to the perfect dark alley, completely hidden from public view.

Posted
by
msmash
on Thursday February 08, 2018 @03:25PM
from the up-next dept.

In an effort to force websites to better protect their users, the Chrome web browser will label all sites not encrypted traffic as "Not secure" in the web address bar, Google announced Thursday. From a report: Encrypted traffic allows users to access data on a website without allowing potential eavesdroppers to see anything the users visit. HTTPS also prevents meddlers from changing information in transit. During normal web browsing, Google currently displays a "Not secure" warning in the next to a site's URL if it forgoes HTTPS encryption and a user enters data. Now the browser will label all sites without HTTPS encryption this way.

Posted
by
msmash
on Wednesday February 07, 2018 @11:47AM
from the closer-look dept.

An anonymous reader writes: The story of Azimuth Security, a tiny startup in Australia, provides a rare peek inside the secretive industry that helps government hackers get around encryption. Azimuth is part of an opaque, little known corner of the intelligence world made of hackers who develop and sell expensive exploits to break into popular technologies like iOS, Chrome, Android and Tor.

Posted
by
EditorDavid
on Sunday February 04, 2018 @10:34AM
from the developing-negatives dept.

An anonymous reader shares an article from the security editor of ZDNet:
A year after photojournalists and filmmakers sent a critical letter to camera makers for failing to add a basic security feature to protect their work from searches and hacking, little progress has been made. The letter, sent in late 2016, called on camera makers to build encryption into their cameras after photojournalists said they face "a variety of threats..." Even when they're out in the field, collecting footage and documenting evidence, reporters have long argued that without encryption, police, the military, and border agents in countries where they work can examine and search their devices. "The consequences can be dire," the letter added.

Although iPhones and Android phones, computers, and instant messengers all come with encryption, camera makers have fallen behind. Not only does encryption protect reported work from prying eyes, it also protects sources -- many of whom put their lives at risk to expose corruption or wrongdoing... The lack of encryption means high-end camera makers are forcing their customers to choose between putting their sources at risk, or relying on encrypted, but less-capable devices, like iPhones.
We asked the same camera manufacturers if they plan to add encryption to their cameras -- and if not, why. The short answer: don't expect much any time soon.

Posted
by
BeauHDon Thursday February 01, 2018 @09:20PM
from the behind-the-scenes dept.

mspohr shares an excerpt from an "interesting article about groups working to make a safer internet": Balkan and Kalbag form one small part of a fragmented rebellion whose prime movers tend to be located a long way from Silicon Valley. These people often talk in withering terms about Big Tech titans such as Mark Zuckerberg, and pay glowing tribute to Edward Snowden. Their politics vary, but they all have a deep dislike of large concentrations of power and a belief in the kind of egalitarian, pluralistic ideas they say the internet initially embodied. What they are doing could be seen as the online world's equivalent of punk rock: a scattered revolt against an industry that many now think has grown greedy, intrusive and arrogant -- as well as governments whose surveillance programs have fueled the same anxieties. As concerns grow about an online realm dominated by a few huge corporations, everyone involved shares one common goal: a comprehensively decentralized internet. Balkan energetically travels the world, delivering TED-esque talks with such titles as "Free is a Lie" and "Avoiding Digital Feudalism."

[David Irvine, computer engineer and founder of MaidSafe, has devised an alternative to the "modern internet" he calls the Safe network]: the acronym stands for "Safe Access for Everyone." In this model, rather than being stored on distant servers, people's data -- files, documents, social-media interactions -- will be broken into fragments, encrypted and scattered around other people's computers and smartphones, meaning that hacking and data theft will become impossible. Thanks to a system of self-authentication in which a Safe user's encrypted information would only be put back together and unlocked on their own devices, there will be no centrally held passwords. No one will leave data trails, so there will be nothing for big online companies to harvest. The financial lubricant, Irvine says, will be a cryptocurrency called Safecoin: users will pay to store data on the network, and also be rewarded for storing other people's (encrypted) information on their devices. Software developers, meanwhile, will be rewarded with Safecoin according to the popularity of their apps. There is a community of around 7,000 interested people already working on services that will work on the Safe network, including alternatives to platforms such as Facebook and YouTube.

Posted
by
EditorDavid
on Saturday January 27, 2018 @05:04PM
from the halt-who-goes-there dept.

An anonymous reader quotes CSO:
"The strategy around Zero Trust boils down to don't trust anyone. We're talking about, 'Let's cut off all access until the network knows who you are. Don't allow access to IP addresses, machines, etc. until you know who that user is and whether they're authorized,'" says Charlie Gero, CTO of Enterprise and Advanced Projects Group at Akamai Technologies in Cambridge, Mass... The Zero Trust model of information security basically kicks to the curb the old castle-and-moat mentality that had organizations focused on defending their perimeters while assuming everything already inside didn't pose a threat and therefore was cleared for access. Security and technology experts say the castle-and-moat approach isn't working. They point to the fact that some of the most egregious data breaches happened because hackers, once they gained access inside corporate firewalls, were able move through internal systems without much resistance...

Experts say that today's enterprise IT departments require a new way of thinking because, for the most part, the castle itself no longer exists in isolation as it once did. Companies don't have corporate data centers serving a contained network of systems but instead today typically have some applications on-premises and some in the cloud with users -- employees, partners, customers -- accessing applications from a range of devices from multiple locations and even potentially from around the globe... The Zero Trust approach relies on various existing technologies and governance processes to accomplish its mission of securing the enterprise IT environment. It calls for enterprises to leverage micro-segmentation and granular perimeter enforcement based on users, their locations and other data to determine whether to trust a user, machine or application seeking access to a particular part of the enterprise... Zero Trust draws on technologies such as multifactor authentication, Identity and Access Management (IAM), orchestration, analytics, encryption, scoring and file system permissions. Zero Trust also calls for governance policies such as giving users the least amount of access they need to accomplish a specific task.
"Most organizational IT experts have been trained, unfortunately, to implicitly trust their environments," says the chief product officer at an IAM/PIM solutions supplier.

"Everybody has been [taught] to think that the firewall is keeping the bad guys out. People need to adjust their mindset and understand that the bad actors are already in their environment."

Posted
by
EditorDavid
on Saturday January 27, 2018 @03:59PM
from the I'm-feeling-private dept.

An anonymous reader quotes the Verge:
DuckDuckGo is launching updated versions of its browser extension and mobile app, with the promise of keeping internet users safe from snooping "beyond the search box." The company's flagship product, its privacy-focused search engine, will remain the same, but the revamped extension and app will offer new tools to help users keep their web-browsing as safe and private as possible. These include grade ratings for websites, factoring in their use of encryption and ad tracking networks, and offering summaries of their terms of service (with summaries provided by third-party Terms of Service Didn't Read). The app and extension are available for Firefox, Safari, Chrome, iOS, and Android.

The ability to block ad tracking networks is probably the most important feature here. These networks are used by companies like Google and Facebook to follow users around the web, stitching together their browsing history to create a more accurate profile for targeted advertising.
DuckDuckGo calls it "a major step to simplify online privacy," adding that without it, "It's hard to use the Internet without it feeling a bit creepy -- like there's a nosey neighbor watching everything you do from across the street."

Posted
by
msmash
on Thursday January 25, 2018 @11:01AM
from the tussle-continues dept.

In a speech earlier this month, FBI Director Christopher Wray said the inability of law enforcement authorities to access data from electronic devices due to powerful encryption is an "urgent public safety issue." He proposed that Silicon Valley companies should add a backdoor to their encryption so that they could both "provide data security and permit lawful access with a court order." One person is not amused by Wray's proposal. Senator Ron Wyden criticized Wray on Thursday for not consulting him before going public with the proposal for encryption. Wyden said today, via Gizmodo: Your stated position parrots the same debunked arguments espoused by your predecessors, all of whom ignored the widespread and vocal consensus of cryptographers. For years, these experts have repeatedly stated that what you are asking for is not, in fact, possible. Building secure software is extremely difficult, and vulnerabilities are often introduced inadvertently in the design process. Eliminating these vulnerabilities is a mammoth task, and experts are unified in their opinion that introducing deliberate vulnerabilities would likely create catastrophic unintended consequences that could debilitate software functionality and security entirely.

[...] I would like to learn more about how you arrived at and justify this ill-informed policy proposal. Please provide me with a list of the cryptographers with whom you've personally discussed this topic since our July 2017 meeting and specifically identify those experts who advised you that companies can feasibly design government access features into their products without weakening cybersecurity. Please provide this information by February 23, 2018.

Posted
by
msmash
on Tuesday January 23, 2018 @11:05AM
from the privacy-woes dept.

Tinder's mobile apps still lack the standard encryption necessary to keep your photos, swipes, and matches hidden from snoops, a security firm reports. From Wired: On Tuesday, researchers at Tel Aviv-based app security firm Checkmarx demonstrated that Tinder still lacks basic HTTPS encryption for photos. Just by being on the same Wi-Fi network as any user of Tinder's iOS or Android app, the researchers could see any photo the user did, or even inject their own images into his or her photo stream. And while other data in Tinder's apps are HTTPS-encrypted, Checkmarx found that they still leaked enough information to tell encrypted commands apart, allowing a hacker on the same network to watch every swipe left, swipe right, or match on the target's phone nearly as easily as if they were looking over the target's shoulder. The researchers suggest that lack of protection could enable anything from simple voyeuristic nosiness to blackmail schemes.

Posted
by
BeauHDon Thursday January 18, 2018 @05:40PM
from the come-and-get-it dept.

prisoninmate shares a report from Softpedia: The Wine (Wine Is Not an Emulator) project has been updated today to version 3.0, a major release that ends 2017 in style for the open-source compatibility layer capable of running Windows apps and games on Linux-based and UNIX-like operating systems. Almost a year in the works, Wine 3.0 comes with amazing new features like an Android driver that lets users run Windows apps and games on Android-powered machines, Direct3D 11 support enabled by default for AMD Radeon and Intel GPUs, AES encryption support on macOS, Progman DDE support, and a task scheduler. In addition, Wine 3.0 introduces the ability to export registry entries with the reg.exe tool, adds various enhancements to the relay debugging and OLE data cache, as well as an extra layer of event support in MSHTML, Microsoft's proprietary HTML layout engine for the Windows version of the Internet Explorer web browser. You can read the full list of features and download Wine 3.0 from WineHQ's website.

Posted
by
BeauHDon Friday January 12, 2018 @05:10PM
from the when-it-rains-it-pours dept.

An anonymous reader quotes a report from Ars Technica: Meltdown and Spectre are not the only security problems Intel is facing these days. Today, researchers at F-Secure have revealed another weakness in Intel's management firmware that could allow an attacker with brief physical access to PCs to gain persistent remote access to the system, thanks to weak security in Intel's Active Management Technology (AMT) firmware -- remote "out of band" device management technology installed on 100 million systems over the last decade, according to Intel. [T]he latest vulnerability -- discovered in July of 2017 by F-Secure security consultant Harry Sintonen and revealed by the company today in a blog post -- is more of a feature than a bug. Notebook and desktop PCs with Intel AMT can be compromised in moments by someone with physical access to the computer -- even bypassing BIOS passwords, Trusted Platform Module personal identification numbers, and Bitlocker disk encryption passwords -- by rebooting the computer, entering its BIOS boot menu, and selecting configuration for Intel's Management Engine BIOS Extension (MEBx).

If MEBx hasn't been configured by the user or by their organization's IT department, the attacker can log into the configuration settings using Intel's default password of "admin." The attacker can then change the password, enable remote access, and set the firmware to not give the computer's user an "opt-in" message at boot time. "Now the attacker can gain access to the system remotely," F-Secure's release noted, "as long as they're able to insert themselves onto the same network segment with the victim (enabling wireless access requires a few extra steps)."

Posted
by
msmash
on Friday January 12, 2018 @09:41AM
from the next-up dept.

Simon Sharwood, writing for The Register: Cisco has switched on latent features in its recent routers and switches, plus a cloud service, that together make it possible to detect the fingerprints of malware in encrypted traffic. Switchzilla has not made a dent in transport layer security (TLS) to make this possible. Instead, as we reported in July 2016, Cisco researchers found that malware leaves recognisable traces even in encrypted traffic. The company announced its intention to productise that research last year and this week exited trials to make the service -- now known as Encrypted Traffic Analytics (ETA) -- available to purchasers of its 4000 Series Integrated Service Routers, the 1000-series Aggregation Services Router and the model 1000V Cloud Services Router 1000V. Those devices can't do the job alone: users need to sign up for Cisco's StealthWatch service and let traffic from their kit flow to a cloud-based analytics service that inspects traffic and uses self-improving machine learning algorithms to spot dodgy traffic.

Posted
by
msmash
on Thursday January 11, 2018 @03:05PM
from the catching-up dept.

Microsoft and Open Whisper Systems (makers of the Signal app) surprised many on Thursday when they said they are partnering to bring support for end-to-end (E2E) encrypted conversations to Skype. From a report: The new feature, called Skype Private Conversations has been rolled out for initial tests with Skype Insider builds. Private Conversations will encrypt Skype audio calls and text messages. Images, audio or video files sent via Skype's text messaging feature will also be encrypted. Microsoft will be using the Signal open-source protocol to encrypt these communications. This is the same end-to-end encryption protocol used by Facebook for WhatsApp and Facebook Messenger, and by Google for the Allo app.

Posted
by
BeauHDon Thursday January 11, 2018 @08:00AM
from the two-sides-to-every-coin dept.

troublemaker_23 shares a report from iTWire: A forensics expert from the FBI has lashed out at Apple, calling the company's security team a bunch of "jerks" and "evil geniuses" for making it more difficult to circumvent the encryption on its devices. Stephen Flatley told the International Conference on Cyber Security in New York on Wednesday that one example of the way that Apple had made it harder for him and his colleagues to break into the iPhone was by recently making the password guesses slower, with a change in hash iterations from 10,000 to 10,000,000. A report on the Motherboard website said Flatley explained that this change meant that the speed at which one could brute-force passwords went from 45 attempts a second to one every 18 seconds. "Your crack time just went from two days to two months," he was quoted as saying. "At what point is it just trying to one up things and at what point is it to thwart law enforcement? Apple is pretty good at evil genius stuff," Flatley added.

Posted
by
msmash
on Wednesday January 10, 2018 @01:01PM
from the security-woes dept.

A group of crytopgraphers from Germany's Ruhr University Bochum have uncovered flaws in WhatsApp's security that compromise the instant messaging service's end-to-end encryption. WhatsApp, owned by Facebook, has over one billion active users. In a paper published last week, "More is Less: On the End-to-End Security of Group Chats in Signal, WhatsApp, and Threema," anyone who controls WhatsApp's servers, including company employees, can covertly add members to any group -- a claim that might not bode well with privacy enthusiasts. From the paper: The described weaknesses enable attacker A, who controls the WhatsApp server or can break the transport layer security, to take full control over a group. Entering the group however leaves traces since this operation is listed in the graphical user interface. The WhatsApp server can therefore use the fact that it can stealthily reorder and drop messages in the group. Thereby it can cache sent messages to the group, read their content first and decide in which order they are delivered to the members. Additionally the WhatsApp server can forward these messages to the members individually such that a subtly chosen combination of messages can help it to cover the traces. Further reading: Wired.

Posted
by
msmash
on Tuesday January 09, 2018 @11:40AM
from the next-up dept.

One of the biggest potential security vulnerabilities -- public Wi-Fi -- may soon get its fix. From a report: The Wi-Fi Alliance, an industry body made up of device makers including Apple, Microsoft, and Qualcomm, announced Monday its next-generation wireless network security standard, WPA3. The standard will replace WPA2, a near-two decades-old security protocol that's built in to protect almost every wireless device today -- including phones, laptops, and the Internet of Things.

Posted
by
msmash
on Tuesday January 09, 2018 @11:01AM
from the debate-resumes dept.

The inability of law enforcement authorities to access data from electronic devices due to powerful encryption is an "urgent public safety issue," FBI Director Christopher Wray said on Tuesday in remarks that sought to renew a contentious debate over privacy and security. From a report: The FBI was unable to access data from nearly 7,800 devices in the fiscal year that ended Sept. 30 with technical tools despite possessing proper legal authority to pry them open, a growing figure that impacts every area of the agency's work, Wray said during a speech at a cyber security conference in New York. "This is an urgent public safety issue," Wray added, while saying that a solution is "not so clear cut."

Posted
by
EditorDavid
on Sunday January 07, 2018 @03:34PM
from the in-the-chips dept.

An anonymous reader writes: AMD has fixed, but not yet released BIOS/UEFI/firmware updates for the general public for a security flaw affecting the AMD Secure Processor. This component, formerly known as AMD PSP (Platform Security Processor), is a chip-on-chip security system, similar to Intel's much-hated Management Engine (ME). Just like Intel ME, the AMD Secure Processor is an integrated coprocessor that sits next to the real AMD64 x86 CPU cores and runs a separate operating system tasked with handling various security-related operations.

The security bug is a buffer overflow that allows code execution inside the AMD SPS TPM, the component that stores critical system data such as passwords, certificates, and encryption keys, in a secure environment and outside of the more easily accessible AMD cores. Intel fixed a similar flaw last year in the Intel ME.

Posted
by
BeauHDon Thursday January 04, 2018 @02:00AM
from the no-one's-first-and-you're-next dept.

An anonymous reader quotes a report from TechCrunch: In a blog post published minutes ago, Google's Security team announced what they have done to protect Google Cloud customers against the chip vulnerability announced earlier today. They also indicated their Project Zero team discovered this vulnerability last year (although they weren't specific with the timing). The company stated that it informed the chip makers of the issue, which is caused by a process known as "speculative execution." This is an advanced technique that enables the chip to essentially guess what instructions might logically be coming next to speed up execution. Unfortunately, that capability is vulnerable to malicious actors who could access critical information stored in memory, including encryption keys and passwords. According to Google, this affects all chip makers, including those from AMD, ARM and Intel (although AMD has denied they are vulnerable). In a blog post, Intel denied the vulnerability was confined to their chips, as had been reported by some outlets. The Google Security team wrote that they began taking steps to protect Google services from the flaw as soon as they learned about it.

Browsers have been pushing the movement to encrypt the web further, too. Early this year, Chrome and Firefox started showing users "Not secure" warnings when HTTP websites asked them to submit password or credit card information. In October, Chrome expanded the warning to cover all input fields, as well as all pages viewed in Incognito mode. Chrome has eventual plans to show a "Not secure" warning for all HTTP pages... The next big step in encrypting the web is ensuring that most websites default to HTTPS without ever sending people to the HTTP version of their site. The technology to do this is called HTTP Strict Transport Security (HSTS), and is being more widely adopted. Notably, the registrar for the .gov TLD announced that all new .gov domains would be set up with HSTS automatically...